CN116687262A - Suction pipe fitting and dust collector - Google Patents

Abstract

The invention provides a suction tube comprising: the outer tube assembly is formed by nesting a plurality of outer tubes; the dust collection head is connected to one end of the outer tube assembly and used for absorbing dust; the dust storage connecting pipe is positioned on the extension path of the other end of the outer pipe assembly; the corrugated pipe is arranged in the outer pipe assembly and is used for forming a dust collection channel between the dust collection head and the dust storage connecting pipe; the corrugated pipe guide device also comprises a guide bracket which is at least partially embedded in the corrugated pipe and used for guiding the corrugated pipe. Through increase the guide bracket inside the bellows to restrict the bending of bellows, avoid outer tube subassembly compression in-process to take place to block and dun, also avoid the bellows to scratch wearing and tearing at the in-process of retracting and influence user's use experience.

Description

Suction pipe fitting and dust collector

Technical Field

The invention relates to the technical field of dust collection, in particular to a suction pipe fitting and a dust collector.

Background

When using electric tools such as electric hammers, electric drills, and impact drills, it is necessary to install a dust collector for collecting and collecting dust generated during a punching operation and the like. As a dust collector for an electric tool, there is disclosed a dust collector for an electric tool having the following structure: a ventilation member (telescopic outer tube) is provided at the front end of the cleaner housing, which protrudes forward and can slide in the front-rear direction, and has a suction port at the front end, and a bellows is provided in the telescopic outer tube to form an air passage through which air sucked from the suction port passes to a discharge port formed in the cleaner housing, and a filter is accommodated in the air passage and dust in the air is captured by the filter. The telescopic outer tube is used for increasing the using range of the dust collector, and the freely telescopic corrugated tube is placed inside the telescopic outer tube as a member for forming an air passage.

However, the phenomenon that the telescopic outer pipe is blocked and can not be retracted frequently occurs when the existing dust collector is used, in addition, the phenomenon that the corrugated pipe is easily damaged and broken and leaked due to friction with the inner wall of the telescopic outer pipe is caused, so that the dust collector has the ash leakage risk, and the use experience of a user is affected.

In view of the above, there is a need for an improved suction fitting and cleaner that overcomes the shortcomings of the prior art.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a suction pipe fitting structure which can prevent the outer pipe assembly from being blocked and prevent the corrugated pipe from being scratched to cause ash leakage failure.

The invention provides the following technical scheme: suction pipe fitting, comprising:

the outer tube assembly is formed by nesting a plurality of outer tubes;

the dust collection head is connected to one end of the outer tube assembly and used for absorbing dust;

the dust storage connecting pipe is positioned on the extension path of the other end of the outer pipe assembly;

a bellows which is arranged in the outer tube assembly to form a dust collection channel between the dust collection head and the dust storage connecting tube;

the corrugated pipe guide device also comprises a guide bracket which is at least partially embedded in the corrugated pipe and used for guiding the corrugated pipe.

The further improvement scheme is as follows: the outer tube assembly comprises a first outer tube and a second outer tube which is partially accommodated in the first outer tube; an inlet pipe is arranged in the first outer pipe, one end of the corrugated pipe is connected with the inlet pipe in a sealing mode, the other end of the corrugated pipe is connected with the dust storage connecting pipe in a sealing mode, and the guide support extends from the dust storage connecting pipe towards the inlet pipe.

The further improvement scheme is as follows: the guiding support comprises a guiding section extending along the central shaft of the corrugated pipe and a connecting section extending from the dust storage connecting pipe to the guiding section in a conical shape, and the connecting section and the dust storage connecting pipe are surrounded by a conical air inlet space.

The further improvement scheme is as follows: when the outer tube assembly is not retracted, one end of the guide support is positioned on the dust storage connecting tube, and the other end of the guide support is positioned between the first outer tube and the dust storage connecting tube.

The further improvement scheme is as follows: the guide support is formed by bending a metal wire, and the connecting section is connected with the dust storage connecting pipe in a clamping mode.

The further improvement scheme is as follows: the dust storage connecting pipe is provided with a positioning groove and a positioning hole, the connecting section is clamped into the positioning groove under elastic bias, and the end head of the connecting section is inserted into the positioning hole so as to fix the guide bracket.

The further improvement scheme is as follows: the guide bracket forms a closed end at one end far away from the dust storage connecting pipe.

The further improvement scheme is as follows: the bellows has a bellows-like tube wall and a spring attached to the tube wall.

The invention provides another technical scheme that: a dust collector comprises a shell, a dust collection box and the suction pipe fitting, wherein the dust collection box and the suction pipe fitting are contained in the shell, the second outer pipe is contained in the shell, when the suction pipe fitting is retracted, the first outer pipe slides back and forth along the inner wall of the second outer pipe, and the second outer pipe slides back and forth along the inner wall of the shell.

The further improvement scheme is as follows: one end of the dust storage connecting pipe is communicated with the corrugated pipe, and the other end of the dust storage connecting pipe is communicated with the dust collecting box.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the guide bracket is added in the corrugated pipe to guide the corrugated pipe, so that the bending of the corrugated pipe in the retraction process of the outer pipe assembly can be effectively limited, and the movement interference of the bent corrugated pipe to the retraction of the telescopic inner pipe caused by the abutting of the inner wall of the telescopic outer pipe is avoided, and the phenomenon that the outer pipe assembly is blocked and cannot retract due to the movement interference is avoided; meanwhile, the corrugated pipe is prevented from abutting against the inner wall of the tubular part of the shell due to bending, so that the influence on the use experience of a user caused by scraping, abrasion and ash leakage failure of the corrugated pipe due to the tubular part of the shell is prevented.

Drawings

FIG. 1 is a schematic diagram of a hand tool according to a preferred embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of the hand-held tool of FIG. 1;

FIG. 3 is a schematic view of the vacuum cleaner of FIG. 1;

FIG. 4 is a schematic cross-sectional view of the vacuum cleaner of FIG. 3;

FIG. 5 is a schematic view of the suction fitting of FIG. 4;

FIG. 6 is an assembled schematic view of the suction fitting of FIG. 5;

FIG. 7 is a schematic view of a prior art bellows in a bent state when retracted;

FIG. 8 is a schematic view of the assembly of the guide bracket of the present invention;

fig. 9 is a schematic top view of the guide bracket of fig. 8.

Detailed Description

The terminology used in the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The words such as "upper", "lower", "front", "rear", "left", "right", etc., indicating an azimuth or a positional relationship are merely based on the azimuth or the positional relationship shown in the drawings, and are merely for convenience of description and to simplify the description, and do not indicate or imply that the devices/elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention.

Referring to fig. 1-2, the embodiment of the invention discloses a handheld tool, which comprises a tool main body 100 and a dust collector 200 connected with the tool main body 100, wherein dust generated during operation of the tool main body 100 can be sucked and collected by the dust collector 200. For convenience of explanation, the tool body 100 takes an electric hammer as an example; of course, the tool body 100 may be other types of tools, such as an electric drill and a pick, so long as the tools are used for working on a working surface to generate dust, and the dust may be collected by the suction of the cleaner 200, so that the following technical solutions may be adopted.

Referring to fig. 3-4, for convenience of description, the direction of power output from the hand tool is defined as front, and the opposite direction is defined as rear. The cleaner 200 includes a housing 20, a dust box 21 accommodated in the housing 20, and a suction pipe 22, wherein the suction pipe 22 can slide back and forth along the inner wall of the housing 20. The housing 20 is divided by a functional space, and may be formed with a main body portion 201 for placing the integrated cassette 21, and a tubular portion 202 for slidably supporting the suction pipe member 22. The main body 201 is used to house main components of the cleaner, such as the dust box 21 and the dust suction motor 23. The tubular portion 202 may be integrally injection molded or otherwise fixedly coupled to the front end of the main body 201, and the rear end of the suction pipe 22 is inserted into the tubular portion 202 and linearly slid back and forth with support in the tubular portion 202 to increase the range of use of the cleaner. The tubular portion 202 may have a substantially straight tubular shape with an open front end, but it is needless to say that the tubular portion 202 may have different shapes depending on the specific shapes of the main body portion 201 and the suction pipe member 22.

The suction pipe fitting 22 can be slidably extended to the vicinity of the processing surface according to the operation requirement, the suction pipe fitting 22 is powered on after being adjusted to a proper length, the dust suction motor 23 accommodated in the shell 20 works, the dust suction motor 23 drives the fan blades to rotate so as to form negative pressure in the dust collection box 21, the negative pressure can enable a suction air channel to be formed in the suction pipe fitting 22 which is in sealed communication with the dust collection box 21, and the suction pipe fitting 22 sucks dust generated by the operation of the processing surface and guides the dust into the dust collection box 21 to collect the dust and the fragments.

Referring to fig. 5-6, the suction pipe 22 may include a suction head 221, an outer pipe assembly 220, a dust storage pipe 222, and a bellows 223, which are sequentially connected in a sealing manner. The outer tube assembly 220 encloses the bellows 223 to provide protection against damage to the bellows 223 due to external forces.

The dust suction head 221 is located at the forefront end, and may include a head 2211 having a substantially annular shape and a connection seat 2212 clamped with the head 2211, the head 2211 has a cavity structure, the head 2211 forms an annular suction inlet, a tool head (such as a drill bit or an electric hammer impact drill) passes through the annular suction inlet to perform operation on a processing surface, dust and debris generated on the processing surface is sucked into the dust suction head 221 through the annular suction inlet surrounded by 360 degrees, a connection seat 2212 is disposed below the head 2211, the connection seat 2212 is detachably connected with the connection seat 2212 through a fastening structure, an end surface of the connection seat 2212 is fixedly connected with the front end of the outer tube assembly 220, the connection seat 2212 also has a cavity structure, one end of an internal cavity is communicated with the annular suction inlet, and the other end is communicated with the bellows 223. One end of the corrugated pipe 223 is communicated with the dust collection head 221, and the other end is communicated with a connecting outer edge 2221 on the dust storage connecting pipe 222. The dust storage connection pipe 222 is located at the rearmost end and is accommodated in the main body 201 of the housing 20, the dust storage connection pipe 222 is a substantially inverted L-shaped pipe, the lower end of the dust storage connection pipe is communicated with the dust collection box 21, and the upper end of the dust storage connection pipe is communicated with the corrugated pipe 223. The dust and the dust generated by the tool head working on the work surface are sucked by the dust suction head 221 through the annular suction port, then enter the dust suction passage formed by the bellows 223 through the inlet pipe 225, and then are sent into the dust collection box 21 through the dust storage connection pipe 222.

In actual use, the operator adjusts the length of the suction pipe 22 as required in advance, so that the suction head 221 can be extended to a suitable position for sucking dust. After use, the operator also needs to retract the cleaning head 221 to its original length for storage. The length of the suction tube member 22 is adjusted by adjusting the overall length of the outer tube assembly 220.

As shown in fig. 4 to 6, the outer tube assembly 220 may be formed by sequentially telescoping a plurality of outer tubes, wherein a front outer tube is received in an adjacent rear outer tube and the front outer tube can linearly slide back and forth along the inner wall of the rear outer tube, and a rear outer tube is received in the housing 20 of the cleaner 200 and can linearly slide back and forth along the inner wall thereof. In the embodiment of the present invention, the outer tube assembly 220 includes a first outer tube 2201 and a second outer tube 2202 partially accommodating the first outer tube 2201, the second outer tube 2202 is partially accommodated in the housing 20 of the cleaner 200, when the suction pipe 22 is extended or retracted, the first outer tube 2201 slides back and forth along the inner wall of the second outer tube 2202, and the second outer tube 2202 slides back and forth along the inner wall of the housing 20 of the cleaner 200. When the first outer tube 2201 and the second outer tube 2202 slide back and forth along the respective slide rails, the cleaning head 221 connected to the front end of the first outer tube 2201 is pushed forward or pulled backward. When the outer tube assembly 220 is extended or retracted under the control of an operator, the bellows 223 for forming the dust collection passage inside thereof increases the overall length of the dust collection passage along with the extension of the outer tube assembly 220 due to its own extendable property; the bellows 223, because of the spring attached to the wall of the bellows, also shortens the overall length of the suction passage as the outer tube assembly 220 is retracted.

To avoid the bellows 223 from forming a curved state as shown in fig. 7 when the outer tube assembly 220 is retracted, a guide bracket 224 is provided inside the bellows 223, and the guide bracket 224 is at least partially built in the bellows to limit the bending of the bellows 223 when the outer tube assembly 220 is retracted. The latter half of the bellows 223 is easily bent, so that the guide bracket 224 can be disposed on the dust storage adapter 222 and extended to a certain length in the direction of the inlet pipe 225, thereby guiding the latter half of the bellows 223 and avoiding spontaneous bending of the bellows 223 when the outer pipe assembly 220 is retracted. In a specific implementation, the guiding bracket 224 may be extended forward from the dust storage connection pipe 222 integrally, or the guiding bracket 224 may be prefabricated first and then fixedly installed on the dust storage connection pipe 222, where the connecting outer edge 2221 of the outer peripheral surface of the dust storage connection pipe 222 may be located at the rear of the guiding bracket 224, so that the bellows 223 may substantially enclose the guiding bracket 224, thereby improving the tightness of the dust collection channel.

Referring to fig. 8 and 9, the guide bracket 224 includes a guide section 2241 extending along a central axis of the bellows 223, and a connection section 2242 extending from the guide section 2241 in a tapered shape, and the connection section 2242 and the dust storage adapter 222 enclose an air inlet space in a tapered shape. In a specific implementation, from the front end of the connecting section 2242 to the front end of the dust storage pipe 222, the space enclosed by the connecting section 2242 and the dust storage pipe 222 is a substantially conical space formed by gradually expanding in any form so that the larger-sized debris can smoothly pass through the dust storage pipe 222, and the space can be considered as the conical air inlet space. The guide bracket 224 is "narrow right and wide" in its overall shape. In terms of the cross section of the bellows 223 that allows air to pass through, "right width" refers to: the connection section 2242 needs to extend in a substantially conical shape to the vicinity of the inner wall of the cross section, forming the above-described conical air intake space, and it is possible to avoid that the connection section 2242 divides the cross section through which the dust storage adapter 222 allows air to pass into a plurality of smaller cross sections, which may cause coarse dust to fail to pass through the dust storage adapter 222. "left narrow" refers to: the guide section 2241 needs to be located near the center of the cross section, so as to avoid dust and debris accumulation caused by too small gap between the guide section 2241 and the inner wall of the bellows 223, which affects the dust collection efficiency of the cleaner.

The connecting section 2242 of the guide bracket 224 is mainly used for providing a connection base point for the guide bracket 224, and is in connection with the dust storage connection pipe 222. The guide section 2241 is mainly used to limit bending of the bellows 223 when the outer tube assembly 220 is retracted, and guide the rear half of the bellows 223 that is easily bent. The overall length of the guide bracket 224 is required to meet the requirement of limiting the bending of the bellows 223, and when the outer tube assembly 220 is at the maximum extension length, the foremost section (i.e., the foremost end of the guide section 2241) of the guide bracket 224 extends into the rearmost outer tube of the outer tube assembly 220, so that the production cost can be reduced on the basis of ensuring the guide effect. In practice, to further save the cost, the overall length of the guide bracket 224 may be shortened again so that the forefront end thereof is located at the rear side of the outer tube assembly 220, and the bellows 223 is not easily bent under the guide of the guide bracket 224.

Further considering the production cost of the guide bracket 224, there are at least two different production cost manufacturing modes for the guide bracket 224: (1) A guide bracket 224 is integrally formed with the dust storage connection pipe 222 and extends forwards; (2) The guide bracket 224 is prefabricated and then mounted on the dust storage adapter 222. For the integrated manufacturing mode of the mode (1), the dust storage connection pipe 222 is generally a plastic pipe structure, and the guide bracket 224 is formed by the integrated manufacturing mode, so that not only is the cost of the plastic molding die high, but also the structural strength of the guide bracket 224 is not high enough, and the guide effect is affected. For the prefabrication and forming manufacturing mode of the mode (2), in the embodiment of the invention, the prefabrication mode of bending and forming the metal wires is adopted, and then the metal wires are fixed on the dust storage connecting pipe 222 in a clamping mode, and the manufacturing mode is lower in cost than the plastic integral forming mode.

In the above-described manufacturing mode (2), the wire is bent into the shape of the guide bracket 224 and then is engaged with and fixed to the dust storage adapter 222. The clamping structure of the two is as follows: the dust storage connecting pipe 222 is provided with the positioning groove 2221 and the positioning hole 2222, the metal wire has elastic deformation stress characteristic after being bent, the connecting section 2242 of the metal wire is clamped into the positioning groove 2221 under the action of the elastic deformation stress, in the using process of the dust collector, the guide bracket 224 cannot swing up and down in the air flow, the end head of the connecting section 2242 is inserted into the positioning hole 2222, and the guide bracket 224 cannot axially move in the air flow.

Referring to fig. 9, in one embodiment of the present invention, the positioning groove 2221 is disposed on the outer peripheral surface of the dust storage adapter 222, and the distance between the wire connection sections 2242 is smaller than the outer diameter of the dust storage adapter 222, so that the connection sections 2242 have an adduction elastic deformation stress after being snapped into the positioning groove 2221, so as to provide a fastening force with the dust storage adapter 222.

In another embodiment of the present invention, the positioning groove 2221 is disposed on the inner wall surface of the dust storage connection pipe 222, and the distance between the wire connection sections 2242 is larger than the inner diameter of the dust storage connection pipe 222, so that the connection sections 2242 have outward expansion elastic deformation stress after being snapped into the positioning groove 2221, so as to provide a fastening force with the dust storage connection pipe 222.

As shown in fig. 8, the positioning hole 2222 may be disposed at the end of the positioning slot 2221, when the guide bracket 224 is bent and formed and then is mounted on the dust storage adapter 222, the end of the connecting section 2242 is advanced to the end along the positioning slot 2221 and then is inserted into the positioning hole 2222, and then the connecting section 2242 is also clamped into the positioning slot 2221, so as to complete the fastening connection between the guide bracket 224 and the dust storage adapter 222 at one time.

As shown in fig. 9, the foremost end of the guide bracket 224 (i.e., the foremost end of the guide section 2241) may be formed as a smooth closed end, or the foremost end of the guide bracket 224 may be smoothly curved in a direction away from the inner wall of the bellows 223, which is not only beneficial to smooth air passage, but also can effectively avoid scraping and wearing the bellows 223 after the end forms a smooth curved surface structure.

The guide bracket 224 adopts the above manufacturing method of bending and forming the metal wire, so that the cost is low, the bending resistance strength of the metal wire structure is high, and the corrugated pipe 223 can be better guided. In addition, the guide bracket 224 constructed by the metal wires has smaller volume, does not occupy excessive air channel space, can enable air flow to pass more smoothly, and improves dust collection effect.

In the present invention, the guiding bracket 224 is built in the bellows 223, when the outer tube assembly 220 is retracted, the bellows 223 is also shortened under the action of the spring attached to the tube wall, the guiding bracket 224 guides and supports the bellows 223, so as to prevent the bellows 223 from abutting against the inner wall of the second outer tube 2202 due to bending, thereby preventing the bellows 223 from generating motion interference to the retraction of the first outer tube 2201, and preventing the first outer tube 2201 from being blocked and unable to retract due to the retraction path blocked by the bellows 223; meanwhile, under the guiding and supporting actions of the guiding bracket 224, the corrugated pipe 223 can not lean against the inner wall of the tubular part 202 of the shell 20 due to bending, so that the corrugated pipe 223 is prevented from being damaged and invalid due to frequent scraping of the inner wall of the tubular part 202, and the use experience of a user is prevented from being influenced.

The present invention is not limited to the above-described embodiments. Those of ordinary skill in the art will readily appreciate that many alternatives to the dual speed ratchet wrench of the present invention are possible without departing from the spirit and scope of the present invention. The protection scope of the present invention is subject to the claims.

Claims (10)

1. Suction pipe fitting, comprising:

the outer tube assembly is formed by nesting a plurality of outer tubes;

the dust collection head is connected to one end of the outer tube assembly and used for absorbing dust;

the dust storage connecting pipe is positioned on the extension path of the other end of the outer pipe assembly;

a bellows which is arranged in the outer tube assembly to form a dust collection channel between the dust collection head and the dust storage connecting tube;

the method is characterized in that:

the corrugated pipe guide device also comprises a guide bracket which is at least partially embedded in the corrugated pipe to guide the corrugated pipe.

2. The suction fitting according to claim 1, characterized in that: the outer tube assembly comprises a first outer tube and a second outer tube which is partially accommodated in the first outer tube; an inlet pipe is arranged in the first outer pipe, one end of the corrugated pipe is connected with the inlet pipe in a sealing mode, the other end of the corrugated pipe is connected with the dust storage connecting pipe in a sealing mode, and the guide support extends from the dust storage connecting pipe towards the inlet pipe.

3. A suction fitting according to claim 2, characterized in that: the guide support comprises a guide section extending along the central axis of the corrugated pipe and a connecting section extending from the dust storage connecting pipe to the guide section in a conical shape, and the connecting section and the dust storage connecting pipe are surrounded by a conical air inlet space.

4. A suction fitting according to claim 2, characterized in that: when the outer tube assembly is not retracted, one end of the guide bracket is positioned on the dust storage connecting tube, and the other end of the guide bracket is positioned between the first outer tube and the dust storage connecting tube.

5. A suction fitting according to claim 3, characterized in that: the guide support is formed by bending a metal wire, and the connecting section is connected with the dust storage connecting pipe in a clamping mode.

6. The suction fitting according to claim 5, wherein: the dust storage connecting pipe is provided with a positioning groove and a positioning hole, the connecting section is clamped into the positioning groove under elastic bias, and the end head of the connecting section is inserted into the positioning hole so as to fix the guide bracket.

7. A suction fitting according to claims 1-4, characterized in that: the guide bracket forms a closed end at one end far away from the dust storage connecting pipe.

8. The suction fitting according to claim 1, characterized in that: the bellows has a bellows-like tube wall and a spring attached to the tube wall.

9. A vacuum cleaner, characterized in that: the dust collector comprises a shell, a dust collection box and a suction pipe fitting, wherein the dust collection box is contained in the shell, the suction pipe fitting is contained in the shell, when the suction pipe fitting is extended or retracted, the first outer pipe slides back and forth along the inner wall of the second outer pipe, and the second outer pipe slides back and forth along the inner wall of the shell.

10. A vacuum cleaner as claimed in claim 9, wherein: one end of the dust storage connecting pipe is communicated with the corrugated pipe, and the other end of the dust storage connecting pipe is communicated with the dust collecting box.